Changes in pain sensitivity after the ablation of the somatosensory areas of the cerebral cortex in cats

The effects of ablation of the first and second somatosensory cortex on pain sensitivity were studied in the behavioural experiments on adult cats. The ablation of the first somatosensory cortex (SI) was shown to cause an increase of the response thresholds at all the levels of a conventional scale, while the destruction of the second somatosensory cortex (S2) decreased the response thresholds. The role of SI and S2 in the evaluation of nociceptive information is discussed.     

Sex differences in nociceptive withdrawal reflex and pain perception

Experimentally induced pain often reveals sex differences, with higher pain sensitivity in females. The degree of differences has been shown to depend on the stimulation and assessment methods. Since sex differences in pain develop anywhere along the physiological and psychological components of the nociceptive system, we intended to compare the nociceptive flexion reflex (NFR) as a more physiological (spinal) aspect of pain procession to the verbal pain report of intensity and unpleasantness as the more psychological (cortical) aspect. Twenty female and twenty male healthy university students were investigated by use of nociceptive flexion reflex threshold (staircase method) after electrical stimulation of the N. suralis. Furthermore, we assessed supra-threshold reflex responses (latency, amplitude and area) by applying 10 stimuli 5 mA above reflex threshold. Following each stimulation, the subjects provided pain ratings of intensity and unpleasantness on a visual analogue scale. Females exhibited marked lower nociceptive flexion reflex thresholds than males, while the supra-threshold reflex response tailored to the individual reflex threshold did not show any significant differences. The verbal pain ratings, corrected for NFR threshold, were not found to differ significantly. The large sex differences in nociception that were present in NFR threshold but not in the pain ratings corroborate the hypothesis that spinal processes contribute substantially to sex differences in pain procession.     

Pain Perception Is Increased in Congenital but Not Late Onset Blindness

There is now ample evidence that blind individuals outperform sighted individuals in various tasks involving the non-visual senses. In line with these results, we recently showed that visual deprivation from birth leads to an increased sensitivity to pain. As many studies have shown that congenitally and late blind individuals show differences in their degree of compensatory plasticity, we here address the question whether late blind individuals also show hypersensitivity to nociceptive stimulation. We therefore compared pain thresholds and responses to supra-threshold nociceptive stimuli in congenitally blind, late blind and normally sighted volunteers. Participants also filled in questionnaires measuring attention and anxiety towards pain in everyday life. Results show that late blind participants have pain thresholds and ratings of supra-threshold heat nociceptive stimuli similar to the normally sighted, whereas congenitally blind participants are hypersensitive to nociceptive thermal stimuli. Furthermore, results of the pain questionnaires did not allow to discriminate late blind from normal sighted participants, whereas congenitally blind individuals had a different pattern of responses. Taken together, these results suggest that enhanced sensitivity to pain following visual deprivation is likely due to neuroplastic changes related to the early loss of vision.     

Involvement of ORL1 receptor and ERK kinase in the orphanin FQ-induced nociception in the nucleus accumbens of rats

Nociceptin/orphanin FQ (N/OFQ) is a heptadecapeptide, which has been identified as an endogenous ligand of the opioid receptor-like (ORL1) receptor. The present study investigated the nociceptive effect of intra-nucleus accumbens (intra-NAc) injection of OFQ, and the involvement of ERK pathway in such effect. Intra-NAc injection of OFQ (0.1, 0.5, 1 nmol) dose-dependently decreased the nociceptive thresholds on the hindpaw withdrawal response to thermal and mechanical stimulation in rats. Moreover, the intra-NAc injection of OFQ-induced decreases in HWLs were antagonized by intra-NAc injection of (Nphe(1))nociceptin(1-13)NH(2), an antagonist of ORL1 receptor, in a dose-dependent way. Furthermore, the OFQ-induced nociception could be attenuated by pretreatment with the mitogen-activated protein kinase/ERK kinase (MEK) inhibitor 1,4-diamino-2,3-dicyano-1,4-bis(2-aminopheylthio)butadiene (U0126). Our results demonstrate that OFQ induces nociceptive effects in NAc. The effect was blocked by the antagonist (Nphe(1))nociceptin(1-13)NH(2) and attenuated by U0126, suggesting that the activation of ERK pathways is involved in the OFQ-induced nociceptive effect in the NAc of rats.     

Antinociceptive activity of clonidine in the mouse, rat and dog

The antinociceptive activities of clonidine have been determined against several qualitatively different noxious stimuli in the mouse, rat and dog. In these tests clonidine given subcutaneously was 6 to 7 times more potent than morphine. Both clonidine and morphine were more potent against responses to heat induced nociceptive stimuli than against responses to heat induced nociception or that induced by electrical tail stimulation. However, unlike morphine the effects of clonidine in these latter tests were only seen at doses that also caused sedation and so these animals were less able to respond to the nociceptive stimuli. In contrast in pressure, chemical and tooth pulp stimulation tests clonidine produced increases in nociceptive thresholds at doses which caused no overt signs of behavioural depression. Comparisons of the relative potencies of clonidine and the less lipophilic analogue 4-hydroxyclonidine given subcutaneously and intracerebroventricularly indicate that clonidine induced antinociception is predominantly centrally mediated. However, a peripheral component may also be present in the inhibition of acetylcholine-induced abdominal constriction in the mouse.     

小胶质细胞在脂多糖引起的热高敏中的作用

目的探讨小胶质细胞在脂多糖引起的热高敏中的作用。方法清洁级雄性昆明小鼠,随机分成两组,每组5只,腹腔注射LPS组和注射PBS组,在注射前及后30、60、120、240 min测量小鼠足底的热痛阈;每组于注射前及后4h各处死5只取脑组织检测IL-1β、TNF-α;每组于腹腔注射4h时处死动物,免疫荧光确定脑组织中小胶质细胞的激活情况。然后分为四组,米诺环素+PBS组,米诺环素+LPS组,PBS+PBS组,PBS+LPS组,每组5只,连续三天腹腔注射米诺环素或PBS,第三天注射LPS或PBS,在注射前及后30、60、120、240 min测量小鼠足底的热痛阈;每组于注射前及后4h各处死5只取脑组织检测IL-1β、TNF-α。结果与注射PBS相比,注射LPS导致IL-1β、TNF-α分泌增加,注射60、120、240 min小鼠的热痛阈降低;与米诺环素+PBS组、米诺环素+LPS组、PBS+PBS组相比,PBS+LPS组导致IL-1β、TNF-α分泌增加,注射60、120、240 min小鼠的热痛阈降低。结论LPS激活小胶质细胞分泌促炎细胞因子导致热高敏。     

Characteristics of the neuronal reaction of the substantia nigra to nociceptive stimulation

The nature of neurone response of substance nigra (SN) to nociceptive stimulation of the cat's peroneal nerve has been studied. The recording of neurone SN firing rate revealed that the majority (71.0%) of the SN neurones responded to the nociceptive repetitive stimulation of the peroneal nerve. But the thresholds of nociceptive activation in SN neurones turned to be very high. As a result of it the number of SN neurones responding to repetitive peroneal stimulation was twice as many as the number of cells responding to single stimulation of the nerve. The intravenous injection of naloxone in dose 1.0 mg/kg changed both excitatory and inhibitory responses in majority (71.4%) of SN neurones responding to repetitive peroneal stimulation. Naloxone did not modify the firing rate of neurones nonresponsive to nociception.     

Influence of postoperative analgesics on the development of neuropathic pain in rats

Rodent models of neuropathic pain require extensive tissue manipulation to induce the lesion of interest which results in inflammation and postoperative pain that is unrelated to nerve injury per se. We sought to determine whether acute postoperative pain management affects the development of hallmark signs of neuropathic pain. Analgesic regimens (q 24 h x 3 days) were buprenorphine (0.05 and 0.1 mg/kg of body weight, s.c.), flunixin meglumine (1.1 and 2.5 mg/kg, s.c.), and fentanyl citrate (0.01 and 0.1 mg/kg, i.p.). The spared nerve injury model of neuropathic pain was used, and mechanical and cold allodynia as well as body weight gain were measured for 28 days. Buprenorphine and fentanyl alleviated mechanical sensitivity and prevented weight loss associated with the surgery (0 to 3 days), but opioid-related adverse effects were observed. Flunixin reduced wound inflammation and improved weight gain, but had no effect on nociceptive thresholds. Cold allodynia was unaltered by any treatment. By postoperative day 7, control and treatment groups did not differ with respect to weight gain or nociceptive thresholds. Our findings suggest that postsurgical inflammation and pain behavior can be ameliorated without substantially altering the long-term development of neuropathic pain, provided that the selection of agent(s) and treatment regimen(s) is appropriate and the neuropathic pain of interest is evaluated seven days after surgery.     

Top-Down Effect of Direct Current Stimulation on the Nociceptive Response of Rats

Transcranial direct current stimulation (tDCS) is an emerging, noninvasive technique of neurostimulation for treating pain. However, the mechanisms and pathways involved in its analgesic effects are poorly understood. Therefore, we investigated the effects of direct current stimulation (DCS) on thermal and mechanical nociceptive thresholds and on the activation of the midbrain periaqueductal gray (PAG) and the dorsal horn of the spinal cord (DHSC) in rats; these central nervous system areas are associated with pain processing. Male Wistar rats underwent cathodal DCS of the motor cortex and, while still under stimulation, were evaluated using tail-flick and paw pressure nociceptive tests. Sham stimulation and naive rats were used as controls. We used a randomized design; the assays were not blinded to the experimenter. Immunoreactivity of the early growth response gene 1 (Egr-1), which is a marker of neuronal activation, was evaluated in the PAG and DHSC, and enkephalin immunoreactivity was evaluated in the DHSC. DCS did not change the thermal nociceptive threshold; however, it increased the mechanical nociceptive threshold of both hind paws compared with that of controls, characterizing a topographical effect. DCS decreased the Egr-1 labeling in the PAG and DHSC as well as the immunoreactivity of spinal enkephalin. Altogether, the data suggest that DCS disinhibits the midbrain descending analgesic pathway, consequently inhibiting spinal nociceptive neurons and causing an increase in the nociceptive threshold. This study reinforces the idea that the motor cortex participates in the neurocircuitry that is involved in analgesia and further clarifies the mechanisms of action of tDCS in pain treatment.     

Nociceptive reactions during stimulation of immunity in rats with various individual resistance to stress

Various behavioural nociceptive reactions and individual resistance against stress were studied under conditions of stimulation of the immune processes by various techniques. The research problems included a study of influence of the immune stimulation with preparation "Imunofan" upon pain responses depending on individual resistance of animals to a stress, and the obtained results were compared with similar data in natural model of immune activation. To reveal central immune regulation of nociceptive reactions, imunofan was injected into brain ventricles. The work was carried out in 43 "Wistar" adult male rats. Free "open field" behaviour of animals was recorded to define a stress-resistance. Following nociceptive reactions, tail-flick to thermal stimuli; start, escape, jumping and vocalization to electrical skin stimulation, were studied. It was shown that intramuscular injection of imunofan (0.01 ml, 0.005% solution) depressed an active behaviour of animals in open field and reduced pain thresholds. This hyperalgesia was much higher in non-resistant rats in comparison to the resistant ones. Similar results were obtained in natural activation of immunity caused by operative procedure necessary for injection of imunofan into ventricles. Intracerebroventricular injections were accompanied by stronger and more complex changes of pain sensitivity.     

Long-term hyperalgesia in rats induced by neonatal administration of vasopressin antiserum

Vasopressin antiserum was given to two day old rats and the nociceptive thresholds were evaluated three months later. The rats were hypersensitive to pain when electrical current, but not heat, was used as the noxious stimulus. These animals were also insensitive to cold-water swim, a non-opioid form of stress analgesia. The vasopressin content in the pituitary or in the hypothalamus was not however modified by the neonatal treatment. The present results suggest a physiological role for vasopressin in non-opioid pain inhibitory systems.     

Behavioral control of the efficiency of pharmacological anesthesia in fish

An original behavioral test was used to study the effect of opioid substances on the thresholds of nociceptive responses to pain stimuli—a series of electric impulses applied to nerve endings of the caudal fin—in the common carp (Cyprinus carpio). The substances tested included tramadol (μ-agonist of opioid receptors), DADLE (δ-agonist), and U-50488 (κ-agonist) injected intramuscularly in concentrations 10–100 nmol/g of body weight. Raised thresholds of sensitivity to the pain stimulus were observed in the studied fish 5 to 15 min after the injection. The degree of analgesia and the rate of its increase varied depending on the dose. The total duration of analgesia was 40 to 90 min and depended on the concentration of the injected substance. It was observed in some experiments that the analgesic effect of tramadol (the most efficient of the analgesics used) could last longer than 4 h. The analgesic effect of opioids was not detected in experiments where they were applied together with naloxone, an antagonist of opioids. Decreased motor response to pain stimuli after injections of analgesics was not caused by the immobilization of the animal, because the tested fish individuals released into an aquarium demonstrated normal swimming and their usual behavior. We concluded that the systems of opioid nociceptive regulation function similarly in fish and land vertebrates. This regulation can play an important role in defense behavior and in other behaviors in fish.     

Naloxone-reversible stress-induced feeding and analgesia in the slug Limax maximus

Exposure to tail-pinch stress increased the thermal nociceptive thresholds and food intakes of the slug, Limax maximus. These stress-induced "analgesic" and feeding responses, which were similar to the behaviors observed after treatment with exogenous opiates, were blocked by the opiate antagonist, naloxone. These results indicate that exposure to stress increases endogenous opioid activity in slugs and induces various behavioral and physiological responses in a manner analogous to that reported in mammals.     

N型钙通道与疼痛

N型电压依赖性钙通道(VDCCs)在疼痛的传递与调控中具有重要作用。它们密集分布于脊髓背角伤害感受性神经元突触前末梢,参与主要疼痛介质如谷氨酸和P物质等释放的调节。通过阻断上述通道,选择性N型VDCCs阻断剂表现出强效镇痛作用,N型VDCCs Cav2．2亚基基因敲除小鼠也表现为痛阈提高。N型VDCCs还分布于自主神经系统和中枢神经系统突触部位,现有的N型VDCCs阻断剂用于疼痛治疗时出现的各种副作用与这些部位的突触抑制有关。最近发现,背根节伤害感受性神经元上存在一种特异的N型VDCCs亚型,这为疼痛治疗提供了一个非常有意义的新靶标。     

Human head exposure to a 37 Hz electromagnetic field: effects on blood pressure, somatosensory perception, and related parameters

Previous studies have shown that exposure to an electromagnetic field (EMF) of 37 Hz at a flux density of 80 microT peak enhances nociceptive sensitivity in mice. Here we examined the effects on pain sensitivity and some indexes of cardiovascular regulation mechanisms in humans by measuring electrical cutaneous thresholds, arterial blood pressure, heart rate and its variability, and stress hormones. Pain and tolerance thresholds remained unchanged after sham exposure but significantly decreased after electromagnetic exposure. Systolic blood pressure was significantly higher during electromagnetic exposure and heart rate significantly decreased, both during sham and electromagnetic exposure, while the high frequency (150-400 mHz) component of heart rate variability, which is an index of parasympathetic activity, increased as expected during sham exposure but remained unchanged during electromagnetic exposure. Cortisol significantly decreased during sham exposure only. These results show that exposure to an EMF of 37 Hz also alters pain sensitivity in humans and suggest that these effects may be associated with abnormalities in cardiovascular regulation.     

Evidence that substance P may be a modulator rather than a transmitter of noxious mechanical stimulation

Substance P (SP), injected intrathecally, produced a dose-related increase in responsiveness (hyperalgesia) in a pressure test for nociceptive thresholds. Pretreatment with two doses of SP produced complete desensitization to this response but did not alter base-line responsiveness. The hyperalgesic response to SP and the lack of change in base line following desensitization to SP suggest a modulator rather than a transmitter role for SP in the transmission of noxious mechanical stimulation.     

Magnetic fields inhibit opioid-mediated ‘analgesic’ behaviours of the terrestrial snail,Cepaea nemoralis

1. The terrestrial snail, Cepaea nemoralis, when placed on a warmed surface (40 degrees C) displays a thermal avoidance behaviour that entails an elevation of the anterior portion of the fully extended foot. The latency of this nociceptive response was increased by the prototypical mu and specific kappa opiate agonists, morphine and U-50, 488H, respectively, in a manner indicative of anti-nociception and the induction of 'analgesia'. Pretreatment with the prototypical opiate antagonist, naloxone, blocked the morphine- and reduced the U-50, 488H-induced analgesia. Naloxone had no effects on the thermal response latencies of saline treated animals. 2. Exposure to either cold (7 degrees C) or warm (38 degrees C) temperature stress increased the nociceptive thresholds of Cepaea in a manner indicative of the induction of 'stress-induced analgesia'. The warm stress-induced analgesia was opioid mediated, being blocked by naloxone, whereas, the cold stress-induced analgesia was insensitive to naloxone. 3. Exposure for 15-30 min to 0.5 Hz weak rotating magnetic fields (1.5-8.0 G) significantly reduced the analgesic effects of the mu and kappa opiate agonists in a manner similar to that observed with naloxone. The magnetic stimuli also inhibited the endogenous opioid mediated warm stress-induced analgesia and significantly reduced the cold stress-induced analgesia. The magnetic stimuli had no evident effects on the nociceptive responses of saline-treated animals. The dihydropyridine (DHP) and non-DHP calcium channel antagonists diltiazem, verapamil. and nifedipine differentially and significantly reduced, while the DHP calcium channel agonist, BAY K8644, significantly enhanced the inhibitory effects of the magnetic fields on morphine-induced analgesia.     

Ionizing radiation induces opioid-mediated analgesia in male mice

The effects of exposure to ionizing radiation on the nociceptive thresholds of CF-1 mice were examined. Significant increases in thermal response latencies, indicative of analgesia were observed after exposure to either high or low doses of radiation. However, the onset of analgesia occurred significantly more rapidly after treatment with the high doses. Administration of the opiate antagonist, naloxone, blocked and reversed the analgesic effects of both the high and low dose of radiation. These findings support the hypothesis that exposure to ionizing radiation results in opioid-mediated analgesia.     

Nociceptive responses to altered GABAergic activity at the spinal cord

GABA agonists and antagonists were injected intrathecally at the spinal cord, to determine their effect on nociceptive thresholds. Tactile stimulation, applied against the flank by a medium diameter von Frey fiber (5.5 g force), elicited distress vocalizations after, but not before injection of the GABA antagonists, bicuculline MI or picrotoxin (0.25 and 1 microgram dosages). Vocalization threshold to tail shock was significantly reduced by bicuculline MI or picrotoxin. Tail flick withdrawal latency from radiant heat was not altered by GABA antagonists. The GABA agonist, muscimol, significantly elevated vocalization threshold to tail shock at a 5 micrograms dose. At a lower dose level (1 microgram), muscimol significantly reduced vocalization threshold to tail shock. Tail flick latency was significantly prolonged by the 5 micrograms dose of muscimol; however, flaccid paralysis of the hind limbs was also evident. Nociceptive thresholds were not altered by GABA or saline injection. These findings indicate that GABAergic activity contributes to the tonic modulation of nociception at the spinal cord.